Ando AQ6317B calibration and repair
Have your Ando Electric equipment calibrated in the ISO/IEC 17025 accredited lab!
Minerva is specialized in repair and calibration services of Ando Electric instruments. These Ando instruments are calibrated in a ISO/IEC 17025 accredited calibration lab.
The calibration is performed by calibration technicians. We have more then 30 years of experience in calibrating Ando instruments. In short, your Ando instrument is taken good care off! We focus on a fast lead time and extremely high standard of our service.
Ando AQ6317B Optical Spectrum Analyzer
is a high-accuracy and high-resolution optical spectrum analyzer for evaluating D-WDM (Wavelength Division Multiplexing) systems and components. For a wide range of applications, the AQ6317B is an advanced optical spectrum analyzer including light source evaluation, measurement of loss wavelength characteristics in optical devices and waveform analysis of WDM systems.
The AQ6317B optical spectrum analyzer achieves high wavelength accuracy and wavelength linearity at C-band and L-band. The AQ6317B can evaluate optical devices for WDM.
The AQ6317B is a reference equipment for the next generation which contains the latest Ando technology for optical spectrum analyzers. The wavelength accuracy of the AQ6317B has been improved to ±20 pm when compared with former model, and it is specified as for the L-band as well. It has become much easier to use with newly added multi-channel NF analysis function and optical filter analysis function. The WDM analysis function and notch width analysis function are improved.
The AQ6317B when used in conjunction with an AQ4321 Tunable Laser Source, much higher wavelength resolution/wide dynamic range can be achieved by high-speed synchronous sweep.
The AQ6317B provides ±0.02 nm wavelength accuracy at 1520 to 1580 nm, and ±0.04 nm at 1580 to 1620 nm, with ±0.01 nm wavelength linearity, making it especially useful for high-precision loss wavelength characteristics and other evaluation of WDM devices.
The measurements such as gain of optical amplifier can be proceeded accurately because polarization dependency is suppressed as low as ±0.05 dB.
The high power output from an optical amplifier can be measured directly without an optical attenuator.
Specifications:
Dynamic Range: 45dB to 70dB
Optical Connector: FC Standard
Polarization Dependency: +/- 0.05dB
Sweep: 250ms
Wavelength Range: 600nm to 1750nm
Wavelength repeatability: ±0.005nm (1min)
Optical connector: FC (Standard)
Power requirement: AC 100 to 120/200 to 240 V, 50/60 Hz
Operating temperature: 5 to 40 ºC
Storage temperature: -10 to +50 ºC
Humidity: 80 %RH or less (No condensation)
Dimensions: Approx. 425 (W) x 222 (H) x 450 (D) mm
Mass: Approx. 30 kg